This Integrative Graduate Education and Research Training (IGERT) award supports the establishment of an interdisciplinary graduate training program in Cognitive, Computational, and Systems Neuroscience at Washington University in Saint Louis. Understanding how the brain works under normal circumstances and how it fails are among the most important problems in science. The purpose of this program is to train a new generation of systems-level neuroscientists who will combine experimental and computational approaches from the fields of psychology, neurobiology, and engineering to study brain function in unique ways. Students will participate in a five-course core curriculum that provides a broad base of knowledge in each of the core disciplines, and culminates in a pair of highly integrative and interactive courses that emphasize critical thinking and analysis skills, as well as practical skills for developing interdisciplinary research projects. This program also includes workshops aimed at developing the personal and professional skills that students need to become successful independent investigators and educators, as well as outreach programs aimed at communicating the goals and promise of integrative neuroscience to the general public. This training program will be tightly coupled to a new research focus involving neuro-imaging in nonhuman primates. By building upon existing strengths at Washington University, this research and training initiative will provide critical new insights into how the non-invasive measurements of brain function that are available in humans (e.g. from functional MRI) are related to the underlying activity patterns in neuronal circuits of the brain. IGERT is an NSF-wide program intended to meet the challenges of educating U.S. Ph.D. scientists and engineers with the interdisciplinary background, deep knowledge in a chosen discipline, and the technical, professional, and personal skills needed for the career demands of the future. The program is intended to catalyze a cultural change in graduate education by establishing innovative new models for graduate education and training in a fertile environment for collaborative research that transcends traditional disciplinary boundaries.
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TEAM MEMBERS:
Kurt ThoroughmanGregory DeAngelisRandy BucknerSteven PetersenDora Angelaki
The present paper describes the design of teaching materials that are used as learning tools in school visits to a science museum. An exhibition on ‘A century of the Special Theory of Relativity’, in the Kutxaespacio Science Museum, in San Sebastian, Spain, was used to design a visit for first‐year engineering students at the university and assess the learning that was achieved. The first part of the paper presents the teaching sequence that was designed to build a bridge between formal teaching and the exhibition visit. The second part analyses the potential of the exhibition and the
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TEAM MEMBERS:
Jenaro GuisasolaJordi SolbesJose-Ignacio BarraguesMaite MorentinAntonio Moreno
The article discusses how undergraduate science students became docents for "The Genomic Revolution" exhibit at the Fernbank Museum of Natural History in Atlanta, Georgia. According to the article, a docent is one who serves as a connection between the museum and the attendees and acts as an interpreter of the collection for the visitors. Undergraduate students were recruited from schools in the Atlanta, Georgia area including the Georgia Institute of Technology, Emory University, and Spellman College. The docent training program that would cover the genetic principles of the exhibit, the Peer
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TEAM MEMBERS:
Robert PyattTracie RosserKelly Powell
The Nanoscale Science and Engineering Center entitled New England Nanomanufacturing Center for Enabling Tools is a partnership between Northeastern University, the University of Massachusetts Lowell, the University of New Hampshire, and Michigan State University. The NSEC unites 34 investigators from 9 departments. The NSEC is likely to impact solutions to three critical and fundamental technical problems in nanomanufacturing: (1) Control of the assembly of 3D heterogeneous systems, including the alignment, registration, and interconnection at three dimensions and with multiple functionalities, (2) Processing of nanoscale structures in a high-rate/high-volume manner, without compromising the beneficial nanoscale properties, (3) Testing the long-term reliability of nano components, and detect, remove, or prevent defects and contamination. Novel tools and processes will enable high-rate/high-volume bottom-up, precise, parallel assembly of nanoelements (such as carbon nanotubes, nanorods, and proteins) and polymer nanostructures. This Center will contribute a fundamental understanding of the interfacial behavior and forces required to assemble, detach, and transfer nanoelements, required for guided self-assembly at high rates and over large areas. The Center is expected to have broader impacts by bridging the gap between scientific research and the creation of commercial products by established and emerging industries, such as electronic, medical, and automotive. Long-standing ties with industry will also facilitate technology transfer. The Center builds on an already existing network of partnerships among industry, universities, and K-12 teachers and students to deliver the much-needed education in nanomanufacturing, including its environmental, economic, and societal implications, to the current and emerging workforce. The collaboration of a private and two public universities from two states, all within a one hour commute, will lead to a new center model, with extensive interaction and education for students, faculty, and outreach partners. The proposed partnership between NENCET and the Museum of Science (Boston) will foster in the general public the understanding that is required for the acceptance and growth of nanomanufacturing. The Center will study the societal implications of nanotechnology, including conducting environmental assessments of the impact of nanomanufacturing during process development. In addition, the Center will evaluate the economic viability in light of environmental and public health findings, and the ethical and regulatory policy issues related to developmental technology.
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TEAM MEMBERS:
Ahmed BusnainaNicol McGruerGlen MillerCarol BarryJoey Mead
This report provides an overview of the findings from the formative evaluation of the RISE Public Communication Internship conducted at the Museum of Science in January from January 20-23, 2009. The internship was created as a result of a partnership between the Strategic Projects Department at the Museum of Science and the NSF Nanoscale Science and Engineering Center headquartered at Harvard University, and was supported by a sub-award from the Center, to the Museum of Science. The program was overseen by MOS PI Carol Lynn Alpert. The goals for the internship as provided by the intern
Communicating Ocean Sciences to Informal Audiences (COSIA) is an innovative project that creates unique partnerships between informal science education institutions and local colleges conducting research in ocean sciences, with an emphasis on earth, biological and geochemical sciences. The project enables over 100 undergraduate and graduate students that are enrolled in the Communicating Ocean Sciences college course to create engaging learning activities and teaching kits in conjunction with their informal education partners. Institutional teams include: Long Beach Aquarium and California State University-Long Beach; Hatfield Marine Science Center and Oregon Sea Grant at Oregon State University; Virginia Aquarium and Science Center and Hampton University; Liberty Science Center and Rutgers University; and Lawrence Hall of Science and University of California-Berkeley. Students learn valuable outreach skills by providing visiting families and children with classes, guided tours and interactive learning experiences. Deliverables include a three-day partner workshop, a series of COSIA Handbooks (Collaboration Guide, Informal Education Guide and Outreach Guide), an Informal Science Education Activities Manual and Web Bank of hands-on activities. Strategic impact will be realized through the creation of partnerships between universities and informal science education institutions and capacity building that will occur as informal science institutions create networks to support the project. It is also anticipated the evaluation outcomes will inform the field abut the benefits of museum and university partnerships. The project will impact more than 30,000 elementary and middle school children and their families, as well as faculty, staff and students at the partnering institutions.
We have a wide spectrum of informal programs that include museum-based programs, afterschool programs, an NSF AISL project on science identity formation in girls, observatory visitor center programs, night-based programs, programs for Native American groups, undergraduate student-based outreach programs,and professional development for informal educations.